1. We have investigated the antagonist properties of 6 alpha-substituted phenylglycine analogues based on the structure of 4-carboxyphenylglycine (4-CPG) for group I metabotropic glutamate receptors (mGlu1alpha and mGlu5a) permanently expressed in CHO cells. 2. (S)-4-CPG and (S)-MCPG were the most selective mGlu1alpha receptor antagonists. Longer chain alpha-carbon substitutions resulted in a progressive loss of antagonist affinity at mGlu1alpha receptors but not at mGlu5a receptors. Thus mGlu1alpha receptor antagonists require small aliphatic groups at the alpha-position. Alpha-cyclopropyl-4-CPG showed a tendency towards mGlu5a selectivity, suggesting that bulky groups at this position may favour mGlu5a receptor antagonism. 3. We demonstrate that the mGlu5a receptor displays agonist-dependent antagonism. L-glutamate-induced Ca2+ release in mGlu5a receptor expressing cells was more susceptible to antagonism by cyclic alpha-carbon derivatives than (S)-3,5-dihydroxyphenylglycine (DHPG)-induced Ca2+ release in the same cell line. 4. The data presented suggests that mGlu1alpha and mGlu5a receptors have different steric and/or conformational requirements for the binding of antagonists and different amino acids which could interact with agonists. 5. These phenylglycine analogues could provide leads for the development of subtype selective antagonists.